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/********************* */
/*! \file regexp_solver.h
** \verbatim
** Top contributors (to current version):
** Andrew Reynolds
** This file is part of the CVC4 project.
** Copyright (c) 2009-2019 by the authors listed in the file AUTHORS
** in the top-level source directory) and their institutional affiliations.
** All rights reserved. See the file COPYING in the top-level source
** directory for licensing information.\endverbatim
**
** \brief Regular expression solver for the theory of strings.
**
**/
#include "cvc4_private.h"
#ifndef __CVC4__THEORY__STRINGS__REGEXP_SOLVER_H
#define __CVC4__THEORY__STRINGS__REGEXP_SOLVER_H
#include <map>
#include "context/cdhashset.h"
#include "context/cdlist.h"
#include "context/context.h"
#include "expr/node.h"
#include "theory/strings/regexp_operation.h"
#include "util/regexp.h"
namespace CVC4 {
namespace theory {
namespace strings {
class TheoryStrings;
class RegExpSolver
{
typedef context::CDList<Node> NodeList;
typedef context::CDHashMap<Node, bool, NodeHashFunction> NodeBoolMap;
typedef context::CDHashMap<Node, int, NodeHashFunction> NodeIntMap;
typedef context::CDHashMap<Node, unsigned, NodeHashFunction> NodeUIntMap;
typedef context::CDHashMap<Node, Node, NodeHashFunction> NodeNodeMap;
typedef context::CDHashSet<Node, NodeHashFunction> NodeSet;
public:
RegExpSolver(TheoryStrings& p, context::Context* c, context::UserContext* u);
~RegExpSolver() {}
/** add membership
*
* This informs this class that assertion is asserted in the current context.
* We expect that assertion is a (possibly negated) regular expression
* membership.
*/
void addMembership(Node assertion);
/** check
*
* Tells this solver to check whether the regular expressions asserted to it
* are consistent. If they are not, then this class will call the
* sendInference method of its parent TheoryString object, indicating that
* it requires a conflict or lemma to be processed.
*/
void check();
private:
// Constants
Node d_emptyString;
Node d_emptyRegexp;
Node d_true;
Node d_false;
/** the parent of this object */
TheoryStrings& d_parent;
// check membership constraints
Node mkAnd(Node c1, Node c2);
bool checkPDerivative(
Node x, Node r, Node atom, bool& addedLemma, std::vector<Node>& nf_exp);
Node getMembership(Node n, bool isPos, unsigned i);
unsigned getNumMemberships(Node n, bool isPos);
CVC4::String getHeadConst(Node x);
bool deriveRegExp(Node x, Node r, Node atom, std::vector<Node>& ant);
Node getNormalSymRegExp(Node r, std::vector<Node>& nf_exp);
// regular expression memberships
NodeList d_regexp_memberships;
NodeSet d_regexp_ucached;
NodeSet d_regexp_ccached;
// stored assertions
NodeUIntMap d_pos_memberships;
std::map<Node, std::vector<Node> > d_pos_memberships_data;
NodeUIntMap d_neg_memberships;
std::map<Node, std::vector<Node> > d_neg_memberships_data;
// semi normal forms for symbolic expression
std::map<Node, Node> d_nf_regexps;
std::map<Node, std::vector<Node> > d_nf_regexps_exp;
// intersection
NodeNodeMap d_inter_cache;
NodeIntMap d_inter_index;
// processed memberships
NodeSet d_processed_memberships;
/** regular expression operation module */
RegExpOpr d_regexp_opr;
}; /* class TheoryStrings */
} // namespace strings
} // namespace theory
} // namespace CVC4
#endif /* __CVC4__THEORY__STRINGS__THEORY_STRINGS_H */
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